Differential Contracting Homotopy in the Linearized 3d Higher-Spin Theory

Abstract

In this paper, the recently developed differential homotopy approach is applied to the problem of disentangling dynamical and topological fields of the 3d higher-spin gauge theory at the linear level. This formalism allows us to reproduce all known disentangling solutions in a unified form, including both the solutions obtained previously within the shifted homotopy approach in Korybut:2022kdx and that derived by hand in Vasiliev:1992ix, as well as other solutions including those associated with the cohomology of the background covariant derivative D0. Also, within the differential homotopy framework an alternative way of derivation of disentangled equations through a non-conventional solution for the field S1 is suggested. The obtained results are important for further analysis of nonlinear corrections to HS equations in AdS3.